利用高可扩展性平面化工艺和透明聚合物电极在下转换织物上制造有机发光二极管

Textiles Pub Date : 2024-02-15 DOI:10.3390/textiles4010007
C. T. Prontera, M. Pugliese, F. Mariano, D. Taurino, R. Giannuzzi, Vitantonio Primiceri, Marco Esposito, Antonio Andretta, Giuseppe Gigli, V. Maiorano
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引用次数: 0

摘要

基于纺织品的电子技术是开发可穿戴设备的关键技术。基于 OLED 结构的发光纺织品因其固有的灵活性和使用可扩展工艺进行大面积制造的可能性而特别具有发展前景。织物平面化是其制造过程中最关键的问题之一。在此,我们报告了一种快速、简单、可工业化扩展的平面化方法,该方法基于从硅到织物的表面形态特性转移。液态树脂被用作平面化层,利用 "导向基底 "的低粗糙度,可以复制从硅到平面化层的光滑均匀表面。结果,织物表面形成了平整均匀的聚合物层,适用于制造有机发光二极管。为了获得最佳的平面化层,还特别评估了树脂粘度对表面形态的影响。最好的器件即使在经过 1000 次弯曲循环后,也能显示出较高的亮度和电流效率值。我们还探索了通过使用荧光织物作为下转换层来调整器件发射颜色的可能性。由于采用了这种方法,原则上可以通过非常简单的器件结构实现白光发射。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
OLEDs on Down-Converting Fabric by Using a High Scalable Planarization Process and a Transparent Polymeric Electrode
Textile-based electronics represents a key technology for the development of wearable devices. Light-emitting textiles based on OLED architecture are particularly promising due to their intrinsic flexibility and possibility to be fabricated on large areas using scalable processes. Fabric planarization is one of the most critical issues in their fabrication. Here we report a fast, simple, and industrially scalable planarization method based on the transfer of surface morphological properties from silicon to fabric. A liquid resin is used as a planarization layer, and by exploiting the low roughness of a ‘guide substrate’ it is possible to replicate the smooth and uniform surface from the silicon to the planarization layer. The result is a fabric with a flat and homogeneous polymer layer on its surface, suitable for OLED fabrication. In particular, the effect of resin viscosity on the surface morphology was evaluated to obtain the best planarization layer. The best device shows high luminance and current efficiency values, even after 1000 bending cycles. We also explored the possibility of tuning the color emitted by the device by using a fluorescent fabric as a down-converting layer. Thanks to this approach, it is in principle possible to achieve white emission from a very simple device architecture.
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